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Improvement on LEACH Protocol of Wireless Sensor Network

Improvement on LEACH Protocol of Wireless Sensor Network. Multihop LEACH Energy LEACH. Abstract. E nergy-LEACH and multihop –LEACH protocols . Energy-LEACH protocol improves the choice method of the cluster head,

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Improvement on LEACH Protocol of Wireless Sensor Network

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  1. Improvement on LEACH Protocol of Wireless Sensor Network MultihopLEACH Energy LEACH

  2. Abstract • Energy-LEACH and multihop –LEACH protocols. • Energy-LEACH protocol improves the choice method of the cluster head, • makes some nodes which have more residual energy as cluster heads in next round. • Multihop-LEACH protocol improves communication mode • from single hop to multi-hop between cluster head and sink. • Simulation results show that • energy-LEACH and multihop-LEACH protocols have better performance than LEACH protocols.

  3. Introduction • WSN consists of a certain number of smart sensors which form a multihop Ad Hoc network by radio communications in sensor field. • WSN aims to perceive in collaborative mode, gather , deal with and send information to observer in network areas. • Three factors of WSN • Sensor • sensing object • observer • WSN protocol stack contains • physical layer • data link layer • network layer • transport layer • application layer • According to network architecture, routing protocols classification • plane routing • grade routing • position routing

  4. Introduction (cont…) • LEACH (Lower Energy Adaptive Clustering Hierarchy) protocol is a grade routing protocol. • LEACH protocols is already discussed in detail. • Sun limin, et. al., and W. Heinzelman, et. al., modified leach protocol, but it is still faulty and the performance matrixes are complex. • In this paper, a new modified energy-LEACH protocol is presented which designs in detail and improves the wangwei, leach protocol with the help of two simple performance matrixes. • Multi-hop protocol introduced by Mo Xiaoyan; is quite complex. • Multihop-LEACH protocol introduced in this paper is : • Simple • Great performance • Especially fit for WSN with restrictive energy.

  5. LEACH protocol • Main techniques of LEACH protocol include algorithms for: • distributing cluster forming • adaptive cluster forming • cluster header position changing • The technique of distributing cluster forming ensures self-organization of most target nodes. • The adaptive cluster forming and cluster header position changing algorithms ensure • to share the energy dissipation fairly among all nodes and prolong the lifetime of the whole system in the end.

  6. Description of LEACH protocol • LEACH protocol provides a concept of rounds. • Each round contains two states: • cluster setup state • steady state. • In cluster setup state • forms cluster in self-adaptive mode; • In steady state, • transfers data. • The time of transfer state is usually longer than the time of set up state for saving the protocol payload.

  7. Operation Time of LEACH

  8. Flow chart of LEACH protocol

  9. Cluster Formation of LEACH protocol

  10. Different Processes of LEACH protocol

  11. Improvements of LEACH protocol • The criterion of selecting cluster head node • Multi-hop communication among cluster heads

  12. The criterion of selecting cluster head node • LEACH protocol randomly selects cluster head at each round. • Therefore, some nodes maybe exhaust energy too quickly due to being selected as cluster head many times. • Our modified protocol makes the nodes with more residual energy have more chance as cluster head • prevent the whole network to die too early.

  13. Multi-hop communication among cluster heads • Cluster heads directly communicate with sink in LEACH protocol. • The energy consumption between cluster head and sink are greater than energy consumption among cluster heads, so the cluster head will exhaust energy soon. • Multi-hop communication • can avoid the whole network from dying quickly • prolong the network lifetime by balancing the energy consumption among the network.

  14. Energy-LEACH protocol • Energy-LEACH protocol improves the cluster head selection procedure. • It makes residual energy of node as the main matrix which decides • whether these nodes turn into cluster head or not in the next round. • In first round communication, every node has the same probability to turn into cluster head. • n (n=p×N) nodes are randomly selected as cluster heads, and then, the residual energy of each node is different after one round communication. • We select n nodes with more residual energy as cluster heads in next round communication, and so on until all nodes are dead.

  15. Energy-LEACH protocol(Conti…) • Same as the LEACH protocol, energy-LEACH protocol also divides into many rounds, • Each round contains following two phases • cluster formation phase (Set up phase) • cluster steady phase

  16. 2.3. Energy-LEACH protocol • In cluster formation phase, • each node decides whether to turn into cluster head or not by comparing with residual energy; • Some nodes with more residual energy turn into cluster heads • send cluster head information to inform other nodes. • The other nodes with less residual energy turn into common nodes, • send information about joining cluster to a cluster head;

  17. Flow chart of Energy-LEACH protocol • In cluster formation phase, • the flow chart of whether a node turns into cluster head or a common nodeis shown in figure

  18. Cluster Steady Phase of E-LEACH protocol • In cluster steady phase, • nodes in a cluster send data according to TDMA table, and cluster heads receive, fuse and send data to sink. • After a period of time, the network reforms the cluster head selection procedure in a new round.

  19. Multihop-LEACH protocol • Why we Introduce M-LEACH? • Each cluster head directly communicates with sink • no matter the distance between cluster head and sink is far or near in LEACH protocol. • It will consume lot of energy if the distance is far. • A further modified LEACH protocol (multihop-LEACH protocol) • which selects optimal path and adopts multihop between cluster head and sink is presented here. • First, multi-hop communication is adopted among cluster heads. • Then, according to the selected optimal path, • these cluster heads transmit data to the corresponding cluster head which is nearest to sink. • Finally, this cluster head sends data to sink.

  20. Multihop-LEACH protocol • Multihop-LEACH protocol is almost the same as LEACH protocol, • only makes communication mode from single hop to multi-hop between cluster heads and sink. • Its multi-hop routing algorithm within one round is shown in figure. Routing of multihop-LEACH protocol

  21. Simulation analysis • Performances Comparison of • LEACH protocol • energy-LEACH protocol • multihop-LEACH protocol

  22. Performance matrixes • Network lifetime of WSN is very important due to restricting energy. • Here, two matrixes are given to show the state of network energy consumption. • Residual energy of all node; • shows all residual energy of 100 node • Time of network death for different number of nodes. • time when the whole network is finally dead under the condition of a given number of node.

  23. Simulation parameters setting • Sensor nodes contain two kinds of nodes: • sink nodes (no energy restriction) • common nodes (with energy restriction); • Nodes are randomly distributed in a area within 80m×80m, • and the efficient distance among nodes is 15m; • Suppose that every node knows its position, channels between sensor nodes are ideal, sending energy consumption is the same as receiving energy consumption, • energy consumption in each round is 0.05J, and initial energy of each node is 10J; • Energy consumption between cluster head and sink is 59 times of the energy consumption among common nodes; • Probability of being cluster head equals 0.04; • Each node sends data in every 0.5s, and sends data in every time interval at a random time by a TDMA slotted MAC protocol;

  24. Simulation parameters setting 7. Network with same number of nodes still may have different performance due to network structure. • In our simulation, the network topology is randomly built each time, and simulation results are averaged for 3 different network topologies.

  25. Simulation results • Figure shows the performance of residual energy of LEACH protocol, our energy-LEACH protocol and multihop-LEACH protocol. • Multihop-LEACH protocol has more residual energy than LEACH and energy-LEACH protocols. • Energy-LEACH protocol has the same residual energy as LEACH protocol in the beginning, • but Energy-LEACH protocol gradually has more residual energy than LEACH protocol after a certain period of time (120s for our simulation). Figure: Residual energy of three protocols with 100 nodes

  26. Simulation results • Figure shows the performance of network death time for different number of nodes. • Multihop-LEACH protocol survives longer than both energy-LEACH protocol and LEACH protocol • Energy-LEACH protocol survives longer than LEACH protocol. • The results show that • our two modified protocols prolong the network lifetime as compared with the commonly used LEACH protocol. Figure: Time of network death in different num of node of three protocols

  27. Conclusion • Two modified LEACH protocols: energy-LEACH protocol and multihop-LEACH protocol are presented in this paper. • Energy-LEACH protocol considers residual energy in the phase of cluster head selection. • Multihop-LEACH protocol adopts multi-hop communication between cluster and sink. • Simulation results show that • Energy-LEACH and multihop- LEACH protocols have better performance than LEACH protocol.

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